BIOLOGY ACTIVITY -Gene Mutations and Proteins

 

Objective:  To demonstrate how gene mutations affect the production of proteins?

 

Procedure:

1. Use the following base sequence of one strand of an imaginary DNA molecule: AATTGAACACATGCGCCC.
2. 2. Write the base sequence for an mRNA strand that would be transcribed from the given DNA sequence.  Place your results in the table below.
3. Use your codon table provided below to determine the sequence of amino acids in the resulting protein fragment.  Place your results in the table below.
4. If the fifth base in the original DNA strand were changed from G to C, how would this affect the resulting protein fragment?  Write the new protein fragment in the table below.
5. If G were added to the original DNA strand after the third base, what would the resulting mRNA look like?   How would this addition affect the protein?  Show your results in the table below.

Data: 

mRNA from Step 2
Protein Sequence from Step 3
Protein Sequence from Step 4
mRNA from Step 5
Protein Sequence from Step 5

 

Conclusions:   

1. The two mutations were substitution and a frameshift mutation. Which one was substitution?  Which was a frameshift mutation?

1. In what way did the substitution mutation affect the protein?

 

 

 

1. How did the frameshift mutation affect the protein?

Transcribed Image Text:

First Base A G U C Phenylalanine Serine Phenylalanine Serine Leucine Serine Leucine Serine Proline Proline Leucine Leucine Leucine Leucine Isoleucine Isoleucine Secona Base Isoleucine Methionine Valine Valine Valine Valine Proline Proline A G Tyrosine Tyrosine STOP STOP Tryptophan Histidine Arginine Histidine Arginine Cysteine Cysteine STOP Glutamine Arginine Glutamine Arginine Serine Asparagine Serine Arginine Arginine Aspartic Acid Glycine Aspartic Acid Glycine Threonine Asparagine Threonine Threonine Threonine Alanine Alanine Alanine Alanine Lysine Lysine Glutamic Acid Glycine Glutamic Acid Glycine U C A G CAGUUAGUCA A U с A G Third Base 00 + 1 ● Q + >